In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng
Background and aim: Dengue is a potentially deadly tropical infectious disease transmitted by mosquito vector Aedes aegypti with no antiviral drug available to date. Dengue NS5 protein is crucial for viral replication and is the most conserved among all four Dengue serotypes, making it an attractive...
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th-mahidol.826202023-05-19T15:29:07Z In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng Jarerattanachat V. Mahidol University Medicine Background and aim: Dengue is a potentially deadly tropical infectious disease transmitted by mosquito vector Aedes aegypti with no antiviral drug available to date. Dengue NS5 protein is crucial for viral replication and is the most conserved among all four Dengue serotypes, making it an attractive drug target. Both Ginseng and Notoginseng extracts and isolates have been shown to be effective against various viral infections yet against Dengue Virus is understudied. We aim to identify potential inhibitors against Dengue NS5 Methyl transferase from small molecular compounds found in Ginseng and Notoginseng. Experimental procedure: A molecular docking model of Dengue NS5 Methyl transferase (MTase) domain was tested with decoys and then used to screen 91 small molecular compounds found in Ginseng and Notoginseng followed by Molecular dynamics simulations and the per-residue free energy decompositions based on molecular mechanics/Poisson–Boltzmann (generalised Born) surface area (MM/PB(GB)SA) calculations of the hit. ADME predictions and drug-likeness analyses were discussed to evaluate the viability of the hit as a drug candidate. To confirm our findings, in vitro studies of antiviral activities against RNA and a E protein synthesis and cell toxicity were carried out. Results and conclusion: The virtual screening resulted in Isoquercitrin as a single hit. Further analyses of the Isoquercitrin-MTase complex show that Isoquercitrin can reside within both of the NS5 Methyl Transferase active sites; the AdoMet binding site and the RNA capping site. The Isoquercitrin is safe for consumption and accessible on multikilogram scale. In vitro studies showed that Isoquercitrin can inhibit Dengue virus by reducing viral RNA and viral protein synthesis with low toxicity to cells (CC50 > 20 μM). Our work provides evidence that Isoquercitrin can serve as an inhibitor of Dengue NS5 protein at the Methyl Transferase domain, further supporting its role as an anti-DENV agent. 2023-05-19T08:29:07Z 2023-05-19T08:29:07Z 2023-01-01 Article Journal of Traditional and Complementary Medicine Vol.13 No.1 (2023) , 1-10 10.1016/j.jtcme.2022.12.002 22254110 2-s2.0-85145318328 https://repository.li.mahidol.ac.th/handle/123456789/82620 SCOPUS |
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Medicine Jarerattanachat V. In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng |
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Background and aim: Dengue is a potentially deadly tropical infectious disease transmitted by mosquito vector Aedes aegypti with no antiviral drug available to date. Dengue NS5 protein is crucial for viral replication and is the most conserved among all four Dengue serotypes, making it an attractive drug target. Both Ginseng and Notoginseng extracts and isolates have been shown to be effective against various viral infections yet against Dengue Virus is understudied. We aim to identify potential inhibitors against Dengue NS5 Methyl transferase from small molecular compounds found in Ginseng and Notoginseng. Experimental procedure: A molecular docking model of Dengue NS5 Methyl transferase (MTase) domain was tested with decoys and then used to screen 91 small molecular compounds found in Ginseng and Notoginseng followed by Molecular dynamics simulations and the per-residue free energy decompositions based on molecular mechanics/Poisson–Boltzmann (generalised Born) surface area (MM/PB(GB)SA) calculations of the hit. ADME predictions and drug-likeness analyses were discussed to evaluate the viability of the hit as a drug candidate. To confirm our findings, in vitro studies of antiviral activities against RNA and a E protein synthesis and cell toxicity were carried out. Results and conclusion: The virtual screening resulted in Isoquercitrin as a single hit. Further analyses of the Isoquercitrin-MTase complex show that Isoquercitrin can reside within both of the NS5 Methyl Transferase active sites; the AdoMet binding site and the RNA capping site. The Isoquercitrin is safe for consumption and accessible on multikilogram scale. In vitro studies showed that Isoquercitrin can inhibit Dengue virus by reducing viral RNA and viral protein synthesis with low toxicity to cells (CC50 > 20 μM). Our work provides evidence that Isoquercitrin can serve as an inhibitor of Dengue NS5 protein at the Methyl Transferase domain, further supporting its role as an anti-DENV agent. |
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Mahidol University |
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Mahidol University Jarerattanachat V. |
| format |
Article |
| author |
Jarerattanachat V. |
| author_sort |
Jarerattanachat V. |
| title |
In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng |
| title_short |
In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng |
| title_full |
In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng |
| title_fullStr |
In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng |
| title_full_unstemmed |
In silico and in vitro studies of potential inhibitors against Dengue viral protein NS5 Methyl Transferase from Ginseng and Notoginseng |
| title_sort |
in silico and in vitro studies of potential inhibitors against dengue viral protein ns5 methyl transferase from ginseng and notoginseng |
| publishDate |
2023 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/82620 |
| _version_ |
1781415420166668288 |